Multiple antenna system

The invention claimed is: 1. An antenna system operative for simultaneous transmission and reception in a certain frequency band of electromagnetic (EM) radiation, the antenna system comprising at least two antenna modules operative in said certain frequency band, wherein: said at least two antenna modules are collinearly arranged along a common axis; the at least two antenna modules comprise omni-directional antennas of at least two different types, arranged in an alternating fashion along the same axis thereby providing wide azimuthal coverage; wherein each two locally adjacent antenna modules of said at least two antenna modules of the different types are configured as follows: the two locally adjacent antenna modules are spaced apart from one another along said axis by a distance of few nominal wavelengths of said frequency band associated with a zone of near field coupling between the antenna elements; said distance thereby providing small dimensions of the antenna system; the two locally adjacent antenna modules comprise the antennas of two different types comprising a magnetic dipole (MD) antenna module and an electric dipole (ED) antenna module configured to operate at said nominal wavelength of said certain frequency band and characterized by substantially mutually orthogonal polarizations of radiation and by respective toroidal EM radiation patterns coaxial with respect to said common axis providing the low gain along said axis, thereby suppressing the near field EM coupling between the antenna modules in said common frequency band. 2. The antenna system of claim 1 comprising at least one signal feeding module associated with at least one of said at least two antenna modules, the signal feeding module defining a transmission line passing through the vicinity of at least one other of said at least two antenna modules, said feeding module comprising a induced current suppression utility adapted for suppressing noise signals induced on said feeding module by said at least one other antenna module, thereby reducing the EM coupling between said at least two antenna modules. 3. The antenna system of claim 2 , wherein said induced current suppression utility comprises one or more quarter wave short circuit transformers adapted for reflecting noise signals to which said feeding module is exposed. 4. The antenna system of claim 3 , wherein said one or more quarter wave short circuit transformers comprise one or more quarter wavelength conductive sections electrically connected to a conducting shield associated with said transmission line. 5. The antenna system of claim 2 , wherein said transmission line defined by said feeding module passes near a central symmetry axis of said at least one other antenna module, thereby reducing the noise signals induced on said feeding module by at least said one other antenna module. 6. The antenna system of claim 1 , comprising an arrangement of one or more parasitic antenna circuits configured and operable for resonating in frequencies corresponding to said frequency band; said one or more parasitic antenna circuits being arranged in the vicinity of said at least two antenna modules for scattering at least some of a residual EM radiation by which said antenna modules are electromagnetically coupled thereby reducing a crosstalk between said antenna modules. 7. The antenna system of claim 6 , wherein said one or more parasitic antenna circuits comprise at least one loaded resonance circuit configured and operable for absorbing at least some of said residual EM radiation. 8. The antenna system of claim 6 , wherein said arrangement of one or more parasitic antenna circuits is configured and operable for shifting phase of at least a part of the residual EM radiation to cause destructive interference with other parts of said residual EM radiation thereby suppressing said residual EM radiation arid reducing a crosstalk between said at least two antenna modules. 9. The antenna system of claim 1 , wherein said distance between the antenna modules corresponds to at most five nominal wavelengths. 10. The antenna system of claim 1 , characterized by one or more of the following: a) said at least two antenna modules are configured for providing substantially mutually orthogonal polarizations with accuracy in the order of 3° such that an EM coupling between said antenna modules is reduced by an order of about 25 dB in at least some portions of said frequency band thereby widening the effective frequency band having low EM coupling between said at least two antenna modules; b) an EM coupling between said at least two antenna modules is below 45 dB over the frequency band of about 10% of a nominal frequency of said frequency band. 11. The antenna system of claim 2 , wherein said induced current suppression utility is configured and operable for reducing coupling between said antennal modules by about 15 dB. 12. The antenna system of claim 6 , wherein said arrangement of one or more parasitic antenna circuits is configured for dispersing and/or absorbing at least some of the residual EM radiation, to thereby suppress the EM coupling between said at least two antenna modules by about 5 dB. 13. An antenna system comprising: at least two antenna modules of at least two different types, arranged in an alternating fashion along a common axis; said at least two antenna modules comprising two locally adjacent magnetic dipole (MD) antenna modules and an electric dipole (ED) antenna module configured to operate at a nominal wavelength corresponding to an operational frequency band of transmission of electromagnetic (EM) radiation by the antenna system, said MD and ED antenna modules are collinearly arranged along the common axis and are spaced apart from one another along said axis by a distance of a few nominal wavelengths of the operational frequency band thereby providing small dimensions of the antenna system; said distance being associated with a zone of near field EM coupling between the antenna module and wherein said two locally adjacent antenna modules are characterized by substantially mutually orthogonal polarizations of radiation and by respective toroidal EM radiation patterns coaxial with respect to said common axis so as to provide low gain along said axis, thereby suppressing the near field EM coupling between the antenna modules in said operational frequency band; at least one signal feeding module associated with at least one of said at least two antenna modules, the signal feeding module defining a transmission line passing through the vicinity of at least one other of said at least two antenna modules, said feeding module comprising an induced current suppression utility adapted for suppressing noise signals induced on said feeding module by said at least one other antenna module, thereby reducing the EM coupling between said at least two antenna modules. 14. An antenna system comprising an array of a certain number of antenna modules arranged in a spaced-apart relation along a common axis; wherein said array comprises antenna modules of at least two different types, arranged in an alternating fashion along said common axis with distance of few nominal wavelengths corresponding to operational frequency band of transmission of electromagnetic (EM) radiation by the antenna system thereby providing small dimensions of the antenna system; and wherein said distance being associated with a zone of near field EM coupling between the antenna module and said array comprises locally adjacent magnetic dipole (MD) and electric dipole (ED) antenna modules of mutually orthogonal polarizations configured to operate at said nomi